AMD's Ryzen Threadripper 7000 processors mark the latest additions to the high-end desktop (HEDT) market, a segment AMD wants to bring back to the mainstream. Based on AMD's proven Zen 4 architecture and built on TSMC's 5nm process, both of AMD's new Ryzen Threadripper 7000 lineups – Pro and non-Pro – are designed to bring more cores and more I/O to the high-end desktop and workstation markets. Altogether, AMD is offering three new Ryzen Threadripper 7000 SKUs, the top-end 7980X with 64 cores, the mid-tier 7970X with 32 cores, and the entry-level chip in the line-up, the 24-core 7960X.

As has been the case for the vanilla Threadripper series since its inception, the purpose of AMD's server-derived processors is to meet the demands of desktop users who require extreme multitasking capabilities and high throughput for complex workloads, offering more CPU cores, more memory channels, and more PCIe lanes than what otherwise comes with AMD's desktop platform. At the same time, the basic Threadripper lineup differentiates itself from the professional workstation-focused Threadripper Pro chips – in this case, AMD's new Threadripper 7000 WX-series – by leaving out some of the more 'Pro' features that come with that hardware, as well as some of the CPU/memory/IO hardware that the even more powerful Pro chips offer. Segmenting both product lines is a good idea, given the pedigree and use cases of both the Pro WX-series and non-Pro chips are aligned with. With Threadripper 7000, AMD targets customer bases that need CPUs more powerful than a desktop Ryzen processor but not as exotic (or expensive) as what's essentially a full server-grade chip.

After taking a break in the previous generation, AMD is once again offering a HEDT-focused line-up to consumers, which is as grandiose as it is interesting. When AMD launched the Zen 3-based Threadripper 5000 series, AMD only ever released the workstation-focused Pro parts, leaving users looking for semi-affordable high-core count CPUs in the dust. This time, AMD has decided to bring the HEDT back, creating a pair of Threadripper lines similar to the Threadripper 3000 family in 2019.

Today in our AMD Ryzen Threadripper 7000 series review, we're going to be focusing on the top two chips from the trifecta, the top-end Ryzen Threadripper 7980X (64C/128T) and the middle of the road 7970X (32C/64T). We'll be comparing them to the previous Ryzen Threadripper 3000 series and directly against Intel's Sapphire Rapids Workstation CPUs, including the flagship Intel Xeon w9-3495X. Also, we'll be putting them against the desktop flagships, such as the Intel Core i9-14900K and the AMD Ryzen 9 7950X, to see how much more performance AMD's new foray into HEDT users can squeeze out. Is there a suitable place in the market for HEDT chips, given how far desktop processors have progressed within the last couple of years? Let's find out.

AMD Ryzen Threadripper 7000 Series: Bringing HEDT Back

After AMD skipped releasing a vanilla Threadripper processor as part of their Zen 3 architecture family – what would have been the Ryzen Threadripper 5000 series – things certainly looked dim for the future of the high-end desktop (HEDT) market. Combined with Intel also skipping HEDT that generation by not bringing down their troubled Ice Lake server silicon to HEDT products, and it was looking like HEDT may have finally been pushed out by more powerful desktop processors. But a generation later, and things have seemingly changed for the better for the HEDT market. Looking to further capitalize on the success of their Zen 4 architecture, AMD is bringing back HEDT models to the market via the Threadripper 7000 series, with three new chips ranging up to 64C/128T, all with full Zen 4 cores.

The AMD Ryzen Threadripper 7980X, 7970X, and 7960X are the latest entries in the HEDT market, bringing significant advancements in processing power and efficiency. The 7980X is the top SKU with 64 cores/128 threads, a turbo clock speed of up to 5.1 GHz, and a base clock of 2.5 GHz. The 7970X has half the cores and threads, for 32 cores/64 threads altogether, and offers a higher base frequency of 3.2 GHz and matches its higher-end counterpart's 5.1 GHz turbo clock.


AMD Ryzen Threadripper 7980X (64C/128T) CPU-Z Screenshot

These chips are aimed at driving demanding multi-threaded applications that can saturate high core count CPUs, such as advanced content creation, 3D rendering, and complex computational tasks. The 7980X, the more powerful of the two, is particularly suited for scenarios requiring extreme multitasking and high throughput.

Conversely, though AMD isn't sampling it for today's review embargo, the Threadripper 7960X represents the other side of the coin. With 24 cores/48 threads, a base frequency of 3.2 GHz and a turbo clock speed of up to 5.3 GHz, the 7960X offers the fewest cores, but still all of the memory bandwidth and I/O lanes the Threadripper platform can provide, making it especially well suited for tasks where data throughput rather than raw CPU performance is the bottleneck. Still, with fewer CPU cores, it's the entry-level part (if you can call it that) to AMD's new HEDT platform, with an MSRP of $1499.

AMD Ryzen Threadripper 7000 (Zen 4)
AnandTech Cores Base
Freq
Turbo
Freq
PCIe
(Gen 5)
Cache
(L3)
TDP DRAM
(RDIMM)
Price
($)
7980X 64 / 128 2500 5100 48 256 MB 350W 4 x DDR5-5200 $4999
7970X 32 / 64 3200 5100 48 128 MB 350W 4 x DDR5-5200 $2499
7960X 24 / 48 3200 5300 48 128 MB 350W 4 x DDR5-5200 $1499

Regarding memory and I/O capabilities, the Threadripper 7000 series supports quad-channel DDR5 memory and up to 48 PCIe 5.0 lanes, offering plenty of bandwidth for devices such as storage and graphics. Unique to the Threadripper 7000 platform (versus AMD's consumer platform), AMD supports RDIMMs here, allowing the for support for up to 1 TB of memory via DDR-5200 RDIMMs – over 5x as much memory as desktop Ryzen.

These processors represent AMD's commitment to pushing the capability of desktop computing power, catering to both professionals, enthusiasts, and everything in between. They are designed for users who require more than what standard desktop CPUs can offer. The Ryzen Threadripper 7980X and 7970X are designed to excel in multi-threaded workloads. Their theoretical ability to handle more diverse and intensive workloads than desktop processors makes them a pivotal choice in the current HEDT landscape.

One step above this is the Threadripper 7000 Pro WX series, which has support for 8 channels of memory, pushing the performance where workloads, instruction sets, and applications can benefit from both more memory bandwidth and higher memory densities.

The TRX50 Chipset: Designed For Threadripper 7000, Supports TR Pro 7000 WX-Series

Launching alongside the new Threadripper chips is AMD's TRX50 chipset. The TRX50 platofrm uses the new 4844 pins sTR5 socket, which like the Threadripper processors themselves, is derived from AMD's EPYC offerings – in this case the SP6 socket AMD introduced for their lower-priced EPYC 8004 (Siena) processors. Despite the identical pin count, it should be noted that sTR5 and SP6 are not pin compatible.

Meanwhile, looking at things on a generational basis, there is a degree of cooler compatibility. Specifically, older socket sTRX4 Threadripper coolers will still fit on the 58.5mm x 75.4mm sTR5 socket. This means users upgrading from sTRX4 chips should theoretically be able to recycle their old cooler. However, they would certainly need to be capable of supporting a higher TDP of 350 W.


Platform diagram of the WRX90 (left) and TRX50 (right)

For memory and I/O, the TRX50 platform supports 4-channel DDR5 memory and 80 PCIe lanes. Though the latter ends up being an unexpected mix of PCIe 5.0 lanes and PCIe 4.0 lanes, with 48x PCIe 5.0 lanes alongside a further 32x PCIe 4.0 lanes. As PCIe Gen5 is more complex to implement and longer runs require re-drivers, AMD has opted to limit the manufacturing costs of motherboards by not running quite so many max-speed PCIe lanes. At the same time, the idea of TRX50, especially when directly compared to WRX90 for Threadripper Pro 7000 WX-series chips, is that it is a cut-down version to provide everything users need on a middle-abridged chipset between desktop AM5 and WRX90 – meaning that dialing back some PCIe lanes to 4.0 also provides some feature differentiation between the two Threadripper lineups.


AMD Ryzen Threadripper 7970X (32C/64T) CPU-Z Screenshot

It is worth highlighting that Threadripper 7000 Pro chips can also be used in TRX50 motherboards. But, of course, they will be subjected to the same memory channel and I/O limitations. In that respect, TRX50 boards can be used as a budget board pairing for Threadripper Pro chips. Otherwise, the converse is false: non-pro Threadripper 7000 chips cannot be used in WRX90 boards, as illogical as that would be.

Test Bed and Setup

We use the following test systems for our AMD Ryzen Threadripper 7980X, 7970X, and Intel Xeon WS-series testing:

AMD Ryzen Threadripper 7000 Series Intel Sapphire Rapids Xeon Series
CPU Ryzen Threadripper 7980X ($4999)
64 Cores, 128 Threads
350 W TDP

Ryzen Threadripper 7970X ($2499)
32 Cores, 64 Threads
350 W TDP
Xeon W9-3495X ($5889)
56 Cores, 112 Threads
350 W TDP
Motherboard ASUS Pro WS TRX50-SAGE WIFI ASUS Pro WS W790E-SAGE SE
Memory G.Skill Zeta R5 Neo
4x32 GB
DDR5-5200 RDIMM
SK Hynix
8x16 GB
DDR5-4800 RDIMM
6 NZXT Kraken 360 360mm AIO Noctua NH-U14S DX-4677
Storage SK Hynix Platinum P41 2TB PCIe 4.0 x4
Power Supply MSI A1000G 1000W
GPUs AMD Radeon RX 6950 XT, 31.0.12019
Operating Systems Windows 11 22H2

For our head-to-head comparison, we have on hand Intel's latest Sapphire Rapids Xeons. Like the Threadripper series, the Xeons are split up into two sub-groups – the full-fat Xeon w-3000 series for high-end workstations, and the lighter Xeon w-2000 series for more mainstream workstations. Unfortunately, the only Xeons we have on hand are the w-3000 series parts (which is what Intel sampled for reviewing when those were released), so it's not quite an apples-to-apples comparison, especially as the w-3000 Xeons support 8 channels of memory (versus TR's 4 channels).

Still, there are similarities in core and thread count and TDP that should offer some enlightening data. Both platforms have a max TDP of 350W, and the Intel W9-3495X we're using is a 56C/112T chip, while the Threadripper 7980X is a 64C/128T chip.

For added flavor, we'll be adding in data from both AMD and Intel's flagship desktop processors, including the Core i9-14900K, the Ryzen 9 7950X, and Ryzen 9 7950X3D. We will also be comparing the new AMD Threadripper 7000 series chips to their previous counterparts, including the AMD Ryzen Threadripper 3990X (64C/128T), which we reviewed in 2020, as well as the Threadripper 3970X (32C/64T).

Read on for our extended analysis.

SPEC2017 Single-Threaded Results
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  • tamalero - Tuesday, December 5, 2023 - link

    One of the most common issues of AMD is sketchy performance and stability with non samsung chips.
    If you ram had hynix or similar chips..it would usually not post at the advertised max speed.

    As soon I moved to Samsung chips in all my AMD builds, all problems went away.
  • JRF68 - Tuesday, December 12, 2023 - link

    Just unlucky. Should RMA the mb. Asus imho, is still the best for HEDT whether AMD or Intel.
  • clsmithj - Sunday, December 31, 2023 - link

    I have a 3960X Threadripper on a MSI TRX40 Creator, and a 2990WX Threadripper on a MSI X399 MEG Creation board.
    Both system use 4 sticks of Kingston 64GB (16GB x 4) DDR4 3200 dual rank memory (HyperX Predaor/Fury) that worked fine at their C16 3200 MT XMP rate.
    I used DRAM Calc app and managed to get the RAM of my 3960X to run stable at gear 1 C16 3800 MT with UCLK=MCLK set 1900Mhz.
    The ZEN2 CPU is definitely capable of this high memory OC. I've watch Buildzoid clips of him showing how with ZEN2 TR it can go even higher than 3800.
    My ZEN+ 2990WX I have running at Gear 1 C16 DDR4-3466 speed, and I checked ZenTimings that revealed its UCLK=MCLK is at 1733Mhz.
    The high memory clocking is doable you do need a good motherboard, but I always observed the TRX40 boards having a fast amount of decent boards with high amount of VRM phases.
    It was the X399 boards that only had a total of two good boards, which was either the MSI MEG Creation or the ASUS ROG Zenith Extreme.
  • thestryker - Monday, November 20, 2023 - link

    Where have you seen JEDEC compliant 6400 RDIMMs? The highest I've seen is 5600.
  • Rοb - Wednesday, November 29, 2023 - link

    Here: https://www.anandtech.com/show/18988/teamgroup-unv... and https://www.anandtech.com/show/21129/micron-introd...
  • demu - Monday, November 20, 2023 - link

    I was able to run my 3960X with G.Skill Trident Neo 4x16GB 3600CL16 (B-die) at 3600CL14 and/or 3766 CL16 (Asus ROG Strix TRX40-E Gaming) for weeks without any problems.

    Broke down the processor about two months ago. Touched accidentally USB-A -port with an USB-C -cable and the processor no longer booted (or booted and went trough all but the last POST test and then stuck - tried two different MB) :(
    Put all components into a new 5800X3D system and got 4x16GB memory to work @3600CL16.

    Now considering the new 7960X.
  • Makaveli - Monday, November 20, 2023 - link

    So looks like the difference between your system Demu and Teamswitcher is you paired it with high-quality memory.

    Which is no surprise and it's why I never go cheap on memory.
  • meacupla - Monday, November 20, 2023 - link

    It's not about cheap or expensive, it's if you got Samsung B-die or not.

    I have G.Skill F4-3600C18-16GVK, and it only works at 3200 CL18. Why? because I was told it would be Samsung B-die, but it turned out to be SK Hynix, and the AM4 platform doesn't like working with anything other than Samsung B-die.
  • Makaveli - Monday, November 20, 2023 - link

    I have B-die and that is what I'm talking about when I said don't buy cheap memory. B-die = expensive but you get what you pay for and it just works. And you should have done your own research I would have caught the memory was Hynix before purchase.
  • meacupla - Monday, November 20, 2023 - link

    That's the thing though, I did do my research.

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